Membrane Dryers


Water and water vapor can cause big problems in a compressed air system. That’s why compressed air dryers are a critical component of those systems. There are a few different types, and they all have their pros and cons. My colleague Jordan Shouse summed up the selection process pretty succinctly in a past blog: Compressed Air Dryers : What are they Good For? I particularly enjoyed his reference to Edwin Starr’s famous protest song, War (What Is It Good For?)

While they are all indeed “good for (as Jordan said) absolutely A LOT”, I wanted to take (another) deeper dive into one particular type. Membrane dryers are among the newer types of compressed air dryers. As the name suggests, they use a semi-permeable membrane whose structure allows molecules of certain fluids to pass through faster than others, thereby separating those certain fluids from the primary volume. Membrane separation technology is commonly used in:

  • Water purification and desalination (removal of particulates and salts)
  • Nitrogen separation (removal of oxygen and other trace gases)
  • Removing moisture from compressed air (removal of water vapor)

A membrane dryer is made of a cylinder containing very small polymer tubes that have a special coating inside. This coating allows the above-mentioned water & water vapor to pass through more readily than the nitrogen, oxygen, and other trace gases found in the atmospheric air that the compressor has drawn in.

As compressed air enters the cylinder, it’s directed through the polymer tubes, which allow water (but not air) to pass through their walls due to the difference in partial pressure between the gases (e.g., compressed air & water vapor) on the inside, & outside, of the tubes. Air flow, traveling in the opposite direction outside the tubes, sweeps the water out. The higher the sweep air flow rate, the lower the dew point of the compressed air out.

The advantages of membrane dryers are:

  • No moving parts to wear or break.
  • No electricity required.
  • Easy to install.
  • Unaffected by environmental contamination.
  • Compact design.

While environmental contamination isn’t a concern, they are very sensitive to internal contamination, like oil & oil vapor. Membrane dryers are commonly supplied with coalescing filters to minimize any issues there.

One disadvantage (kind of) is their limited flow capacity: the highest capacity membrane dryers are capable of passing around 200 SCFM, meaning they can only be used in small-to-mid-sized systems. I said “kind of” above because, if a certain part of the compressed air system requires a different level of dry air than the rest of the plant, membrane dryers are an inexpensive and easy way to provide that. That’s “kind of” an advantage, in that situation, actually.

Another disadvantage (kind of) is the amount of purge air they lose. Remember, membrane technology means certain fluids will pass through faster & more readily – but not exclusively – so they’re going to lose some of that brand new compressed air along with the water vapor. And the lower you want the dew point to be, the more purge air will be lost. However, the purge air loss is minimal when they’re discharging air dried to a dew point in the 40°F range, and that’s perfectly acceptable in many industrial compressed air systems.

I want to help you get the most out of your compressed air system, so when you think of compressed air, think EXAIR! If you’ve got questions, we’re here to help. Give me a call.

Russ Bowman, CCASS

Application Engineer
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